Scale indicating and totaling mechanism.



R.'H. MCCORMICK. SCALE INDICATING AND TOTALING MECHANISM APPLICATION FILED AUG. 25, 1914.

1,131,785. Patented Mar. 16,1915.

5 8HEET3'SHEET1.

R. H. MCCORMICK.

SCALE INDIGATING AND TOTALING MECHANISM.

APPLICATION FILED AUG 25, 1914.

Patented Mar. 16, 1915.

6 SHEETSSHEET 2.

l r l n ll R. H. MGUORMIOK. SCALE INDIOATING AND TOTALING MECHANISM. APPLICATION FILED AUG. 25, 1914.

1,131,785. Patented Mar. 16, 1915.

' 5 BHBETS-BHEET s.

R. H. MCCORMICK.

SCALE INDIOATING AND TOTALING MECHANISM.

APPLICATION FILED AUG. 25, 1914.

Patented. Mar. 16, 1915.

6 SHEETS-SHEET 4.

A MHHHHHH HMWU v N Y W m wirtvwooeo witmeoow 6M MW R. H. MCCORMICK.

SCALE INDIGATING AND TOTALING MECHANISM.

Patented M ar,16,1915.

5 SHEETS-SHEET 5.

APPLICATION FILED AUG. 25, 1914.

. RUFUS H. MIQGORMIQK,

OF MARLBROOK, VIRGINIA.

SCALE INDICATING' AND TOTALING MECHANISM.

7 T all whom it may concern do it known that I, RUFUS MICK, a citizen of the United States,

H. lVIcCoR- residing at Marlbrook. in the county of Rockhri dge weighed in the ordinary use of and State of Virginia, have invented certain new and useful Improvements in Scale Indicating and Totaling Mechanism; and 1 do hereby declare the following tobe a full, clear, and exact description of the invention, such as will enable others skilled in the art to which it appertains to make and use the same.

This invention relates to certain new and useful improvements in weighingscales and resides more especially in an indicating and tot ling nechanism for use in connection with Scales of the latform type.

In calculating the total number of pounds this type of scales, it is now necessary to separately note the number of pounds of ticles weighed and then by arate notations obtain the total.

adding these sep- This g method of computing the total-is very the some and is always susceptible to the inaccuracies which are so frequently prevalent when weighing a large number of articles during the course of a day.

It is the object of this invention to overcome these diiliculties now experienced and provide a weighing scale in which the weight of each article is successively indicated and the accumulated weights of the several a-rticles totaled upon indicating dials.

Another object of this invention is the provision of an indicating and totaling mechanism which can be readily applied to an ordinary platform scale whereby the successive weights of the articles are separately indicated and then accumulated in a total.

A further object of this invention is the provision o a weighing scale dicating and totaling mechanism which is automatically operated when the article being weighed is remo ed from the platform.

still further obiect of this invention is the provision of a latform scale indicating and totaling mocha Sm in \vhichthe several we ghts now used in conjunction with the sliding weight or poise on the beam. are ca.-

pable of being positioned so as to set the" Specification of Letters Patent.

the respective arhaving an m-' Patented Mar. 16, 1915.

Application filed August 25, 1914. Serial No. 858,457.

mechanism for its proper working when the article weighed is removed. y

With these and other objects in view the invention further consists in the novel arrangement'and combination of parts hereinafter described and more fully pointed out indicating and totaling of the several weights. Fig. is a similar view, but with the parts in an operated position. Fig. l is a sectional plan view of the parts shown in Fig. 2. Fig, 5 is a transverse section on the line -3 of Fig. Fig. (1 is a detail vertical sectional view of the transfer mechanism on the line 6-6 of Fig. 2. Fig. 7 is a detail view of the tripping pawl or latch. Fig. 8 is a'diagrammatical vicw illustrating the manner in which one of the indicating dials is operated to effect the accumulation of the respective weights. Fig. 9 is a detail view of the ten indicating dial mechanism and the locking means emi'i loyed for the first indicating dial. Fig. 10 is a detail view of the pawl and ratchet mechanism' employed in the rotating of the first indicating dial. Fig. 11 is a detail of the weight levers and the respective operation of each when the weights are removed. Figs. 12, 13, ll and 15 are detail sectional view s through the weight levers. illustrating the several positions nary DillifO'II! scale and preferably at-.

tached to the arm overhanging the beam, and further connected to the platform through an operating mechanism as will he einafter appear. This operating mechanism consists of a system of levers which are set when the article to be weighed is placed upon the platform and its weight properly determined in the usual way, and then designed to operate when the article which has been weighed is removed. Through the operation of these levers the re spective weights are registered and totaled 'by the mechanism and can be observed clearly from the face of the indicating dials.

he weighing of the article is accomplished in the usual way, i. e., by the moving of the weight or poise upon the beam, and

then adding such additional weights. as may be necessary.

I of the totaling and indicating mechanism as are shown in combination will be more fully hereinafter described.

In the drawings the scale consists of a platform A, a metal upright or post B, an overhanging arm C, the usual beam D, and the weight or poise E. These parts are of the ordinary construction and form no part of the present invention except wherein they with the otherparts.

pon the beam D in the usual manner and has connected thereto one end of an arm 1, which latter is pivoted at 2 upon a suitable support of .the totaling and indicating case, see Figs. 4 and 5. This arm when moved operates to set the mechanism within the casing, which is secured to the overhanging arm by screws, bolts or the like. To the under side of this arm 1 is secured a depending bracket 3 which is provided with outwardly extending pins 4. Between these pins 4 a lever 5 is positioned, the said lever being pivoted at one end to the casing as at (i, and being also loosely connected at the other end to a vertically moving bar 7 as indicated at 8. See Figs. 2 and 5'.

The vertically moving bar 7 is arranged to slide through the bottom of the casing and is further guided by a bracket and hearing 9 To the bar 7 is secured a weighted pawl or lever 10 the purpose of which is to engage the underside of an arm or lever 11, which latter forms a part of the indicating mechanism now to be described; This mechanism is mounted 'upon'tli'shaftd2 and other partsthereof are in close prox imity thereto. Mounted upon the shaft 12 is a pinion 13 adapted to mesh with a hori-,

Zontally reciprocating rack bar 14. This rack bar 1" is guided through the end wall of the c. g and an intermediate partition The weight or poise E is adapted to slide 15 formed therein. To this bar is pivoted the'arm or lever 11 hereinbefore mentioned.

Also'secured to the rack bar by the link 16 is an arm 17 which'is secured to a spring mechanism after it has been operated in effecting a recording of the pounds.

Loosely positioned upon the shaft 12 and secured to the pinion 13 is a disk 22 to which is secured a plurality of pawls 23. The pawls engage the teeth of a ratchet wheel 24 which has fastened to it a'cam 25. This said ratchet wheel and cam while adapted to move in unison are secured upon the shaft, and dependuwholly upon the pawls carried by the disk for rotation.

Assuming the disk 22 to be rotated in the direction of the arrow in Fig. 3, it will be seen that the pawls 23 will engage the ratchet wheel 24 and thereby rotate the cam 25 for a purpose to be presently described.

The return of the pinion disk and pawls is effected by reason of the spring actuated arm hereinbefore described, and in so doing the pawls pass over the ratchet teeth without engaging same, thereby leaving the ratchet wheel and cam in its advancedposition. To the outer end of the shaft 12 is secured an indicating hand 26 the purpose of which is to indicate the number of pounds ranging from one to fifty. \Vhen the ratchet wheel and cam have been moved to the correct position by the pawls 23, it will be seen that the shaft 12 has been rotated and the handupon the outer end thereof positioned according to the number of poundsthe article weighs, ranging from one to fifty pounds.

In order to prevent the hand from fluttering or possibly indicating the wrong number of pounds, a ratchet wheel 27 and pawl 28 is provided, the purpose of which is to allow the shaft 12 to which the ratchet -wheel 27 is secured to move in the direction portion which is engaged by a pin 34 carried y the main operating bar 35. This main a ratchet wheel 30.

Fig. 2 of the through the .instance fifty pounds.

operating bar receives its motion from the system 156i round when moved to the position shown in dotted lines in 3, has operated the lever and its link conntion and in turn the pawl 29, thereby checking the forward iovement of the hand upon the indicating dial.

In order to more fully comprehend the operation of the indicating mechanism ranging from one to fifty pounds, as shown upon the first dial 36, theoperating mechanism will now be described without reference to its subsequent transfer and totaling. Pivoted to a bracket 37 secured upon the casing is a weighted lever 38. This lever at its upper end is'provided with a series of arcuate graduations corresponding and ranging in pounds to graduations provided. upon the beam D. At each graduation there is preferably a notch, the punpose of which is to accurately engage the sharp and pointed end of the lever or arm 11. To the other end of, the lever 38 is pivoted at 39 a tripping pawl 40. This pawl, has a swinging movement with relation to the lever 38, the'said movement being determined by the slot. and pin connection 41. Referring to drawings the lever 38 is shown in its normal position the weighted por- 'tion 4'2 having returned it so as one end thereof bears upon; the end of the casing.

In this position the tripping pawl 40 is about to be engaged by the end or nose 4:3 of

the main operating bar A movement'of this main operating bar operates the lever 38 through the pawl 40, the notch upon the arcuate shaped upper end of the lever corresponding to the notch at which the weight or poise 15 has been placed, in the presentinstance at the, end-or fifty pound mark engaging the sharp nose or point of the lever, or pivoted arm 11. A continued movement of the main operating bar further moves the lever 38 and it in turn moves the arm 11 and that in turn the bar 14, and an operati'on of the indicating mechanism takes place pinion and rack and ratchet connection; the hand upon the shaft 12 stopping at the number of pounds upon the dial which the article weighs, in the present the lever 38 havingperformed its function of forcing the bar 11 inwardly and effecting an operation of the indicating mechanism, it is now held against further movement by contacting with the side of the casing as shown in Fig. 3. r

The main operating bar 35 having a predetermined path of travel, regulated through the system of levers on the scale, and the adjustable stop 35" secured thereto, continues forward as shown in dotted lines in Fig. 3. In so doing the nose 43 of the of lovers positioned upon the pivoted at 46 to a bracket one'end of a cross shaft .31.

The upper end of main operating har carries the pawl to ride up and over the end of the said bar and then fall back into a recessed portion 44 of the said bar. As soon as this occurs the lever 38 by reilson of its weight assumes the position shown in dotted lines in Fig. 3. It will also be seen that as the main operating bar 35 is retracted the pawl ll will be lifted by the nose 43 of said bar and the parts set for another operation, as shown in Fig. 2. Thus it will be seen that any number of pounds up to fifty can be readily indicated upon the dial according to the weight of the article as determined by the positioning of the weight or poise E upon the beam D.

The system of levers hereinbefore mentioned for o aerating the main operating bar will now be described. T o the outer end of the said bar 35 is secured one end of a.

lever The connection as shown, consists of a link as, but any other suitable connection may be employed. The lever eta) is n which is preferably bolted or clamped to the upright or 0st B of the scales. To the ogposite end of the lever 45 isconnected one clild of a link 48. This link is hooked over a pin ll) upop" the lever 45. The opposite end of the link l8 is connected to a crank. am secured to v lhe cross shaft 51 is secured to the side of the platform of the scale by the clamping bars :52. These bars are provided at one end with a movable clamping jaw secured in place a bolt 5-3 and adapted to engage one side of the platform. The other end of the clamping bars are recessed to clamp over the edge of the platform and when the jaws have been adjusted and secured it will be readily seen that the cross shaft to which the clamping bars are secured, is properly positioned and held. Intermediate the clamping bars 52 is an operating bar'53. This bar is secured to the cross shaft, and has fastened thereto one end of a spring .31 The other end of the spring is secured to one of the clamping bars, and as will be obvious operates to swing the arm 53 upwardly.

In the operation of this system of levers, the article to be weighed is placed-upon the scale platform so as to carry down the arm 53 against the tension of the spring. As the arm 53 is forced downwardly by the weight of the article it will be seen that the cross shaft 51 will be rotated, the crankin turn moved to the position shown in Fig. l, and the several other parts set accordingly. After the article has been weighed, it is taken 0d the platform. As the article is re moved. the arm 53 swin upwardly through the action of the spring and the several levers operated in the direction of the arrows shown in Fig; 1. Thus it will be apparent that the main operating bar 35 is actuated forth, the .mechanism for transferring each total of fifty pounds to the next registering dial will now be described. Itwill be understood from the following description that as i each fifty pounds is registered upon the first dial the transfer of the same as a unit is effected automatically, and. the second dial in turn indicates the said fifty pounds transferred in graduations of fifty pounds each. The total number of graduations upon this second dial is shown as equaling the number of pounds which constitute one ton. Upon the registering of the total number of pounds upon this second dial, the third dial is brought into operation automatically'and the ton is indicated thereon, as will hereinafter be described.

Referring to Figs. 2 and 3 the mechanism for transferring each fifty pounds accumulated upon the first dial consists. of a combination of levers and latches located around and about the shaft 55. Mounted on this shaft 55 is a swinging weighted lever 56, in the lower end of which is positioned a pin 57, extending into the path of a pivoted latch 58. The purpose of this latch is to hold the swinging lever in the position shown in Fig. 2, against the action of the weight '59 therein. An arm 60 is also pivotedto the swinging lever for a purpose to be later described. To the upper end of this swing lever is pivoted a pawl 61 the purpose of which. is to engage the teeth upon the ratchet wheel 62. This ratchet wheel is fastened to the shaft 55 and each tboth corres onds to M the several graduations upon the second dial of fifty pounds each.

The. associated devices for setting the swinging lever 56 so as to transfer the fifty" pounds accumulated on the first dial, con- 'sist of an arm 63. pivoted at 64: to a partition 65 of the casing. This arm 63 extends longitudinally of the casing and the end 66 thereofis adapted to be engaged by the cam 25 secured to the shaft 12, hereinbefore described. Intermediate the pivotal point of this arm and the end 66 thereot is pivoted a swinging arm 67. This arm 67 has in its lower end a-noteh 68 which is adapted to receive a pin 69 carried by another pivoted arm 70. In this arni 70 is pivoted ,at 71 the latch 58 herebefore mentioned. An adjustable stop 72 is provided for the arm 70 and is adapted to correctly position the said arm withrelation to the other parts. vprehend the working of these several parts the operation thereof will now be described:

every time the weighed article is removed In order to more fully com- As the fiftieth pound is registered upon the first dial the cam 25, which has made one ing of this arm 63 the swinging arm 6741,.

also elevated and the pin 69 secured to r lever 70 which is in engagement with the notch 68 when the pivoted arm 63 is down and not. acted upon by the cam, is momentarily lifted carrying with it the said arm 70. As soon as the arm 70 reaches the point where the latch 58 which is carried thereby ,clears the pin 57, the swinging lever 56 which has been held by the pin 57, swings into a vertical position because of the weight 59 as shown in full linesin Fig. 3. In the movement of this lever 56 a strap member 73 which is secured to the said lever is brought into operation, and as the lever 56 continues to move into the vertical position the strap '73 engages-the pivoted arm 67 and swings it clear of the pin 69wvhich was positioned in the notch 68 thereof, see Fig.

A suitable adjusting stop 74 is provided in the casing and limits the movement of the swinging lever 56 with relation to the swing desired and the other co-related parts. With the several parts in the position shown in Fig. 3 of the drawings, it will be seen that the pivoted arm 60 has been moved outwardly and the nose '75 thereof positioned so as to be engaged by the first notch of a lever 76. In this figure the position'of the pawl 61 is also shownas ready to move the ratchet wheel 62 the distance of one tooth when the arm 60 is moved in the direction of the arrow in said figure. moved by a mechanism to be described presently the swinging lever 56 will be moved into the position shown in dotted lines in Fig. 3 and in full lines in Fig. 2. It

will also be seen that when the pin 57 passes from beneath the latch 58 thesaid latch will drop and prevent the return of the swinging lever 56 until the next transfer is effected. It will be also obvious that-as the' first dial again starts to register the next fifty pounds that the cam-,25 will rotate and allow the pivoted arm 63 to drop, thereby permitting the lever 67 with" the notch 68 therein to also drop and swing outwardly a little until the notch 68 engages the pin 69. From this position the parts will again'be moved when the cam 25 again engages the Y end 66 of the lever 63 in transferring another fifty pounds which has been registered. he mechanism for operating this transferring mechanism after, it has been properly set is located t6 one side of the casing and comprises the lever 76 pivoted upon the sameshaft as lever,- 38, the lower end of which is engaged by a" pin 80 carried by the main operating bar 35 and the upper end"of which is provided with a series of notches As the arm is adapted to engage the endof the arm 60 according to the position into which it is placed by devices to be presently described. As shown in Figs. 2 and .3, the arm 60 is in its normal position for effecting a transfer of each fifty pounds as it is registered upon the first dial. \Vhen the main operating har operated as hereinbefore described the pm 80 engages the lower end of the lever 79 and moves the upper end thereof so that the arm (30 is engaged by the lowest notch and the transferring mechanism which has been set, is operated. Unless the accumulated weights equal fifty pounds as registered upon the first dial it will be seen that the transferring mechanism will not be s t and the arm 60 operated.

The devices for registering and totaling Weights ranging from fifty to one hundred and fifty pounds will now be described. This mechanism is used when the articles to be weighed are above the fifty pounds Weight or poise on the beam. The fifty and one hundred pound weights are here shown,

but it will be'understoodthat other proportionate weights and graduations may he employed as the case requires, nism being relatively. proportioned to co operate therewith.

In Figs. 5, 8 and ll-to 15 inclusive, the devices for setting the lever 60 according to the weight of the article over fifty pounds, are shown. They comprise the'usual fifty and one hundred pound weights mounted upon the end of thc'levers 82 and 83, respectively. These levers 82 and 8?) are pivoted at 84 in suitable supports upon the casing and are provided with weights 85 and 86 which are adapted to elevate the ends of the levers from which the weights have been taken. Loosely secured to each of the levers are links 87 and 88. The connection consists of pins 89 and 90 extending from the levers and working in slots 91 and 92 of the respective links. The lower ends of the links are connected to a bar 93 adapted to move up and down in bearings 94 provided in the end of the casing. This verticallv arranged bar 93 carries near its lower end an outwardly projecting pin 95 the purpose of which is to support the pivoted arm 60 and raise and lower said arm through the opening 96 provided in the end of the'casing when the fifty and one hundred pound weights are used.

Assuming. the article to weigh approximately one hundred pounds, the fifty pound weight is taken off the lever 82 and placed upon the end of the beam of the scale in the usual manner. \Vhen this Weight is removed the weight 85 upon the opposite end of the lever 82cforces the lever into the air as shown in dotted lines in Fig; 5. The lever moves upwardly until arrested by a stop 97 carried on the lever 83. In so doing the link the other mecha-' 87 is brought into operation and the vertically arranged bar 94 moved upward. As

this bar rises the pin acting upon the arm 60 causes it to lift until the end thereof is opposite the second notch in the lever 76 or the fifty pound mark, see the first dotted line position in Fig. 8. \Vhen in this position it will be readily seen that the fifty pound weight which has been removed operates to set the totaling mechanism so that when the lever 76 forces the arm 60 inwardly, the swinging lever 56 will move a distance equal to one notch or fifty pounds as shown from a to b, in addition to the distance it-mo es when transferring the accumulated fifty pounds from the first dial.

Referring again to Figs. 11 and 15, and assuming the article to weigh approximately fifty pounds more or one hundred and fifty pounds, the fifty poundweight is returned to its proper place upon the lever 83, and the one hundred pound weight taken off of the lever 8'2. The effect of this is to elevate the arm 60 by reason of theconnection described, and set the totaling mechanism so that the lever 76 will engage the third or one hundred pound notch. and thereby cause the swinging lever to travel a tooth farther, or register one hundred and fifty pounds, or the distance from a to c, Fig. 8.

Assuming now that the article to be weighed is approximately two hundred pounds, the fifty pound weight is removed, and placed upon the beam, the one hundred pound weight having been removed already and placed upon the beam. When the fifty pound weight is removed the lever is forced upwardly and is again arrested by the stop 97. thereby assuring the proper proportional elevation of the arm (30. (see Fig. 11), into the path of the fourth or one hundred and fiftv pound notch of the lever T6, as shown in dotted lines in Fig. 8. Vhen in this position the arm C9 is in the last position shown in dotted lines in Fig. 8 and is set to move the swinging lever 59 a distance of three notches or from .(r to (l, in addition to the one tooth moved in the transfer from the vertical position to the point a. A guiding member 98 having slots 99 and 100 is secured to the casing and serves to assist the levers 82 and 83 in their movements. The uppermdst part of the slot 100 is adapted to arrest lever 83 when the weight is removed, and the stop 97 is designed to stop the upward travel of the lever '82. as will be seen in Figs. 12 to 15. Thus it will be seen that the transferring of the fifty pounds as regis tered upon the first dial is effected through the swing of the lever 56 so as to turn the second dial one graduation, or from the vertical position to the point a; and the additional number of pounds in the fifty and one hundred pound weight further provided ,to a suitable support.

for by its moving the distances ab; a0 a distance of three additional teeth.

As shown in the drawing the second dial isiarranged in graduations of fifty pounds each, totaling in all one ton, and in order that each ton may be indicated upon the third dial, a cam 101 is secured to the shaft 55 which, when the said shaft carrying the ratchet wheel 62 makes one revolution, op-

' eratesone end of a lever 102 and through a pawl 103 carried on the other end of said lever turns a ratchet wheel 104 one tooth or a distance equal to one ton upon the third dial, as will be readily understood. See Fig. 9. A holding pawl 105 is provided beneath the toothed wheel 104 and prevents any overthrow movement of the dial.

In the designing of this present mechanism an additional two hunderd pounds may be reg stered and further accumulated. This is effected through a mechanism located upon the top of the casing and operated manually by the person operating the scales. Pivotally mounted at 107 is a lever 108 upon one end of which is normally positioned a two hundred pound weight of the usual type. The opposite end of the said lever is curved upwardly as at 109 and terminates beneath a pin 110. The pin 110 is carried by a band lever 111 pivoted at 112 To one end of the lever'lll is connected a link pawl 113 which is adapted to extend into the casing and engage and operate the ratchet wheel A spring 114'bears against the under side of the band lever to return the same after being operated, and an adjustable stop 115 is secured t0 the casing for limiting the downward movement of the lever, so as to allow it to move the correct distance.

Pivoted to the end of the casing at 116 is a lever 117 having a counterweight 118 on one end thereof. The other end extends upwardly into the path and bears against the lever 108. Assuming the object to be weighed exceeds the two hundred pounds herei'nbefore provided for, the two hundred pound weight is removed from the lever 108 and positioned upon the end of the beam with the other weights. \Vhen the weight is removed the counterweighted lever 117 is operated and the curved end of the lever 108 is moved from under the pin 110. The band lever is then operated manually so as to register two hundred pounds on the second dial. As shown herein the band lever is forced downwardly'twice, each operation thereof registering one hundred pounds, or a distance equal to two teeth of the ratchet wheel 62. Each tooth representing one graduation upon the second dial or fifty pounds, it will be seen that a distance equal to four teeth of the ratchet wheel will be indicated:

While I have shown herein graduation based upon units of fifty pounds and the general relation and proportion thereto maintained throughout, it is understood that man variations of the units desired may be resorted to, and such other and further details, arrangements and combinations thereof practised as will fall within the scope of the claims.

From the foregoing it will be obvious that I have provided an efiicient indicating and totaling mechanism capable of accurately determining the successive weights of many articles. It will also be apparent that the many conditions and circumstances arising in the course of practical use have been provided for, and means employed to properly obtain the desired results.

hat I claim is:

1. A weighing scale of the class described comprising in combination a totalizing mechanism, means connecting the said mechanism to the indicating means of the said scale and means including a plurality of levers for operating the totalizing mechathe said scale, and means comprising a plurality of levers mounted upon the platform and upright of said scale for operating the totalizing mechanism, the said levers being pivotally connected to the totalizing mechanism whereby the article to be weighed when placed upon the platform moves the saidv levers in one direction, and when removed from the said platform after having been weighed operates the said levers in the opposite direction thereby effecting the opera tion of the totalizing mechanism.

3., A weighing scale of the class described comprising in combination a platform and beam indicator. a totalizing mechanism,

means connecting the said totalizing mechanism to the said beam indicator of vthe scale and means cooperatively related to said platform for operating the totalizing mechanism.

' 4. A weighing scale of the class described 120 comprising in combination a totalizing mechanism, means connecting the said totalizing mechanism to the indicator of the scale and means mounted on said scale for operating the totalizing mechanism including a spring-actuated lever interconnected with connected registering devices and means connecting the said totalizing mechanism with the platform of the scale whereby the Weight of an article will be registered when the article is removed from the platform.

6. A weighing scale of the class described I including in combination a beam, a weight movable upon said beam, at totalizing mechanism connected to the said Weight, additional weights for use upon the end of said beam operatively connected to said totalizing mechanism, the said totalizing mechanism being designed to be set when the Weight is moved upon the beam and the ad ditional weights are afiixed to the end of the beam in the process of weighing, and means for operating the said totalizing mechanism.

7. A weighing scale of the class described including in combination a beam, a weight movable upon said beam, a totalizing mech-.

anism connected tothe said weight, additional weights mounted upon levers interconnected With the totalizing mechanism, the said totalizing mechanism being de-' signed to be set when the weight'is moved upon the beam and the additional weights removed from the levers and afiixed to the end of the beam in the process of Weighing,

and means for operating the said totalizing mechanism.

8. A weighing scale of the class described including in combination a totalizing mech- 40 anism connected to the indicating beam of the scale, the said totalizing mechanism comprising a pluralitv of shafts, devices secured to and associated with the said shaftsfor effecting a transfer of the total successively,

a plurality of levers interconnected with and adapted to operate said devices and means for operating said levers including a weighted lever provided with graduations corresponding to those upon the indicating beam of the weighing mechanism.

9. A weighing scale of the class described including in combination a totalizing mechanism the said mechanism comprising a plurality of shafts having registering hands thereon, devices secured to and associated --With the said shafts to move the hands successively and means including a plurality of levers connected to the said evices and .the weighing scale for operati the hands.

10. A weighing scale ofthe class described including in combination a totalizing mechanism, means connecting the said totalizing mechanism to the indicator of said scale, de-

rying the additional weights of the weighing scale and interconnected with the first mentioned series of levers for operating the same when the weights are removed, devices secured to and associated with the said shafts and first mentioned series of levers including a cam for operating and releasing some of the first mentioned interconne levers, and means for operating the toothed wheels. I

12. A weighing scale of the class described including in combination a totalizing mechanism, the said totalizing mechanism comprising a series of pivotally mounted levers interconnected with each other, a second series of levers carrying 'the additiohal weights of the weighing mechanism and interconnected with the first mentioned series of levers, means provided on the said second series of levers for operating the same whenthe Weights are removed, another series of pivoted levers mounted upon the said totalizing mechanism and adapted to engage some of the first mentioned series of levers, and means for operating the last mentioned levers.

13. A weighing scale of the class described including in combination atotalizing mechanism, the said totalizing mechanism comprising a series of pivotally mounted levers interconnected with each other, a second series of levers carrying the additional weights of the weighing scale and intercom,

' ofthe said weighing scale and the additional Weights employed, and means for operating the said last mentioned levers.

14. A weighing scale of the class described including in combination a totalizing mechanism, means connecting the said totalizing mechanism to the indicating mechanism of i the said scale, means for operating th-e said totalizing mechanism and means controlled by an additional weight for operating said totalizing mechanism.

15. A weighing scale of the class described including in combination a totalizing mechanism, means connecting the said totalizing mechanism to the indicating mechanism of the said scale, means for operating the said totalizing mechanism and means controlled by an additional weight including a lever forioperating the said totalizing mechanism.

In testimony whereof I afiix my signature, in presence of two, subscribing witnesses.

RUFUS H. MCCORMICK.

Witnesses: Y

J. L. LYNN, W. L. MCCORMICK.

Copies of this patent may be obtained for five cents each addressing the Commissioner of Patents,

WashlngtcpfD. C) 

